KR101845485B1 - Video display system for satellite broadcasting received by express bus - Google Patents

Abstract

Disclosed is a satellite broadcasting output system for an express bus, which allows passengers seated on passenger seats of the express bus to individually operate a channel to watch satellite broadcasting. The satellite broadcasting output system includes: a satellite signal receiving antenna installed on an express bus to receive satellite broadcasting; a satellite broadcasting signal amplifier connected to the satellite signal receiving antenna to amplify a satellite broadcasting signal received by the satellite signal receiving antenna; a plurality of passenger-seat monitors installed in passenger seats of the express bus, respectively; a plurality of set-top boxes connected to the plurality of monitors; and a distributor for distributing satellite broadcasting signals amplified through the satellite broadcasting signal amplifiers to the set-top boxes. According to the present invention, the satellite broadcasting signal amplifier dedicated for the express bus is installed so that all passengers seated in passenger seats of the express bus can individually select and watch a broadcasting channel.

Description

TECHNICAL FIELD [0001] The present invention relates to a satellite broadcast output system for a high-speed bus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a high-speed bus satellite broadcast output system for outputting satellite broadcasts received via a high-speed bus, and more particularly, To a satellite broadcast output system for high-speed buses.

Satellite broadcasting is a broadcasting system in which broadcasting satellites located on the geostationary orbit of about 35,000 ~ 36,000 Km are relayed to the ground and received by each household using a parabolic antenna. In the developed countries, as well as South Korea, the launch of the Mugunghwa in 1995 has brought about a full-scale satellite broadcasting era.

Although BS and CS are essentially satellite broadcasting systems, the BS has a transmission power of 100 W to 200 W or so, in order to reduce the reception system for the broadcasting business aiming at individually receiving radio waves from the geostationary satellite, The transmission power is 20W ~ 40W, but the number of repeaters is multi-channel.

A satellite broadcast receiver (set top box) is a device for receiving various TV image data of a plurality of channels transmitted through a satellite, receives digital broadcast data compressed by MPEG (moving picture experts group) transmitted through a satellite, Decodes the encoded data, converts the decoded data into a standard NTSC (National Television Standards Committee) signal, and displays it on a TV receiver or the like.

2. Description of the Related Art In recent years, as the popularity of digital TV receivers has increased and digital broadcasting contents have gradually increased, satellite broadcasting receivers have been popularized. In order to receive digital broadcasting data at home or the like, Broadcast receivers are also being developed.

In the case of such satellite broadcasting, the number of TPs (transponders) allocated to each satellite is limited to several to several hundreds, and a few to several hundred channels are assigned to each TP, However, since a satellite broadcast output device installed on a conventional bus and outputting a satellite broadcast received through a bus has only a single monitor installed and all the passengers have to view a limited channel, each passenger individually selects a desired broadcast There is a problem that it can not be watched.

Korean Patent No. 10-1537059 (published on July 16, 2015) Korean Patent Publication No. 10-2005-0082262 (published on Aug. 23, 2005) Korean Patent No. 10-0642298 (published on November 3, 2006)

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a satellite broadcast signal received through a satellite receiving antenna of a high-speed bus stably to a set-top box installed in each passenger seat so that all passengers seated in a passenger seat of a high- And to provide a satellite broadcast output system for a high-speed bus that can be selected and viewed.

According to another aspect of the present invention, there is provided a satellite broadcast receiving apparatus for receiving a satellite broadcast signal received on a high-speed bus and receiving a satellite broadcast signal, A plurality of set-top boxes connected to the plurality of monitors, and a satellite broadcast signal amplifier amplifying the satellite broadcast signals through the satellite broadcast signal amplifiers, And a distributor for distributing the broadcast program to the box.

According to another aspect of the present invention, there is provided a satellite broadcast receiving apparatus including a first satellite receiving antenna and a second satellite receiving antenna installed on a high-speed bus and receiving satellite broadcasting, A first satellite broadcast signal amplifier for amplifying a satellite broadcast signal received by the first satellite receive antenna, a second satellite broadcast signal amplifier for amplifying a satellite broadcast signal received by the second satellite receive antenna, A plurality of set-top boxes connected to the plurality of monitors, and a satellite broadcast signal amplified through the first satellite broadcast signal amplifier, to a set-top box And a satellite broadcast signal amplified by the second satellite broadcast signal amplifier is supplied to the other set- The first satellite broadcast signal amplifier, and the second satellite broadcast signal amplifier, and when the first satellite receive antenna, the second satellite receive antenna, the first satellite broadcast signal amplifier, and the second satellite broadcast signal amplifier fail, And a distributor configured to have more than one terminal than the number of each set-top box to which the first distributor and the second distributor are connected so that emergency recovery can be performed by connecting the second distributor to each other. to provide.

According to the present invention, a satellite broadcast signal amplifier dedicated to a high-speed bus can be provided so that all passengers who are seated in a passenger seat of a high-speed bus can individually select and watch a broadcast channel.

In addition, the present invention allows a driver and a passenger to transmit a request item and a notification item through a screen of a monitor to which each is assigned.

In addition, when two satellite reception antennas and two satellite broadcasting signal amplifiers are installed, the satellite broadcasting signal is provided to the first satellite reception antenna and the first satellite broadcasting signal amplifier installed in a specific area, And the satellite broadcast signals are provided to the remaining set-top boxes in the second satellite receive antenna and the second satellite broadcast signal amplifier, so that the satellite broadcast signals can be stably provided to each set-top box. If a satellite broadcast signal is not provided to a distributor connected thereto due to a failure of a satellite reception antenna or a satellite broadcast signal amplifier, emergency recovery can be easily performed by connecting the main line of the distributor to the spare line of another distributor. It is possible to prevent the problem that a portion of the passengers can not watch the satellite broadcast while the high-speed bus is moving.

1 is a block diagram illustrating a satellite broadcast output system according to an embodiment of the present invention.
2 is a block diagram illustrating a satellite broadcast output system according to another embodiment of the present invention.
3 is a side view showing a high-speed bus equipped with a satellite broadcast output system according to the present invention.
4 is a block diagram for explaining a passenger seat monitor 300 and a driver's seat monitor according to the present invention.
5 is a wiring diagram for explaining a connection relationship between a power cable and a satellite broadcast cable according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a satellite broadcast output system (hereinafter referred to as a satellite broadcast output system) for a mobile station including a high-speed bus according to preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram illustrating a satellite broadcast output system according to an embodiment of the present invention. FIG. 2 is a block diagram illustrating a satellite broadcast output system according to another embodiment of the present invention.

1 and 2, a satellite broadcasting output system according to the present invention includes a satellite receiving antenna 100 installed on a high-speed bus and receiving satellite broadcasting, A plurality of settop boxes 400 connected to the plurality of monitors and a plurality of satellite broadcast signal amplifiers 200 connected to the plurality of monitors, And a distributor 500 for distributing the satellite broadcasting signal amplified through the satellite broadcasting signal to each set-top box 400.

2, a satellite broadcast signal amplifier 200 and a set-top box 400 are connected to a battery 12 of a high-speed bus by a power cable 800, It is supplied. At this time, the satellite reception antenna 100 and the distributor 500 are connected to the satellite broadcast signal amplifier 200 to receive power from the satellite broadcast signal amplifier 200, and the passenger seat monitor 300 is connected to the set- And is supplied with power from the set-top box 400.

A satellite broadcast signal amplifier 200, a passenger seat monitor 300, a set top box 400 and a distributor 500 are connected to a high-speed bus battery And is supplied with power.

At this time, a vehicle power control unit is installed between each component connected to the power cable 800 and the battery, so that power supplied to each component can be controlled.

The satellite broadcast output system according to the present invention will be described with reference to a configuration in which a high-speed bus having a total of 21 passenger seats arranged in three rows and each having seven seats is described as an example.

Hereinafter, each component will be described in more detail with reference to the drawings.

Referring to FIGS. 1 and 2, the uplink transmission output system according to the present invention includes a satellite reception antenna 100.

The satellite reception antenna 100 is installed on the outside or inside of the high-speed bus and receives satellite broadcasting. It is installed at a position where one satellite broadcasting signal is transmitted to the high-speed bus or is received from the satellite, Can be installed.

3 is a side view showing a high-speed bus equipped with a satellite broadcast output system according to the present invention. 3, a first satellite receiving antenna 110 receiving a satellite broadcasting signal is installed at a front portion of a high-speed bus 10, and a second satellite receiving antenna 120 receiving a satellite broadcasting signal is connected to a high- 10).

If necessary, a plurality of satellite reception antennas 100 installed on the high-speed bus 10 may be configured such that each satellite reception antenna 100 receives signals using different polarizations. For example, if the first satellite receive antenna 110 is configured to use vertical polarization, the second satellite receive antenna 120 may be configured to use horizontal polarization. Conversely, if the first satellite receive antenna 110 is configured to use horizontal polarization, the second satellite receive antenna 120 may be configured to use vertical polarization. As described above, in the embodiment of the present invention, the plurality of satellite reception antennas 100 provided on the high-speed bus 10 are configured to use different polarizations, so that interference between signals received in different directions can be avoided , Thereby improving the reception performance of the satellite reception antenna (100).

Referring to FIGs. 1 and 2, the uplink transmission output system according to the present invention includes a satellite broadcast signal amplifier 200. FIG.

The satellite broadcast signal amplifier 200 is installed on the high-speed bus 10 and is connected to the satellite reception antenna 100 to amplify the low noise of the satellite broadcast signal received by the satellite reception antenna 100, Since the satellite broadcast signal received by the satellite reception antenna 100 is a high frequency of 11.7 GHz to 12.75 GHz, the intermediate frequency (950 MHz to 2,150 MHz), which is an input signal of the set top box 400, , And amplifies and outputs the satellite broadcast signal of the downward frequency band (950 MHz to 2,150 MHz).

The satellite broadcast signal amplifier 200 is composed of an amplifier for a high-speed bus configured to stably operate at an input voltage of DC 18V to 50V so that the voltage of the high-speed bus battery 12 can be used without conversion. This is because the voltage supplied through the battery may fluctuate to about 24 V depending on the starting and operating environment of the high-speed bus, even if a battery that supplies power of 24 V to a general high-speed bus is installed.

If necessary, the satellite broadcast signal amplifier 200 may be connected to a low noise block down converter (LNB) through a power cable to supply a DC 15V / 500mA power to the LNB, And an automatic power-off function for shutting off the power supplied automatically.

2, the satellite broadcast signal amplifier 200 includes a first satellite broadcast signal amplifier 210 connected to the satellite receive antenna 100 to amplify a satellite broadcast signal received by the satellite receive antenna 100, And a second satellite broadcast signal amplifier 220 connected to the satellite reception antenna 100 and amplifying the satellite broadcast signal received by the satellite reception antenna 100. The first satellite broadcast signal amplifier 210 may include a first satellite receive antenna 110 and a second satellite receive antenna 120. The first satellite receive antenna 110 may include a first satellite receive antenna 110 and a second satellite receive antenna 120, The second satellite broadcast signal amplifier 220 amplifies the satellite broadcast signal received by the first satellite receive antenna 110 and the second satellite broadcast signal amplifier 220 is connected to the second satellite receive antenna 120, And amplifies the received satellite broadcasting signal.

In this way, two satellite broadcast signal amplifiers 200 may be connected in parallel to the satellite receive antenna 100 or one satellite broadcast signal amplifier 210 and 220 may be connected to the two satellite receive antennas 110 and 120, respectively. Top box 400 connected to the failed satellite broadcast signal amplifier through the other satellite broadcast signal amplifier even when the satellite broadcast signal amplifier of the satellite broadcast signal amplifier of the satellite broadcast signal amplifier fails.

4 is a block diagram for explaining a passenger seat monitor and a driver's seat monitor according to the present invention. 1 and 4, a satellite broadcast output system according to the present invention includes a plurality of passenger seat monitors 300.

The passenger seat monitor 300 is preferably installed on the passenger seat so that passengers who are seated in the passenger seat can watch satellite broadcasts and are installed on the backside of each passenger seat so that passengers seated in the back seat can watch satellite broadcasts Do.

The first passenger who is seated in the passenger seat at the front end of the high speed bus 10 does not have a passenger seat at the front thereof so that the passenger seat monitor 300 to be used by the first passenger May be installed on the front of the first passenger so as to meet the eye level of one passenger.

In the high-speed bus 10 provided with the passenger seat at the rear end of the high-speed bus 10 having a height different from that of the front passenger seat, the second passenger who is seated in the passenger seat at the rear end is provided with a passenger seat monitor 300 The passenger seat monitor 300 can be installed on the front side of the second passenger so as to match the eye level of the second passenger through a cradle or the like installed inside the high speed bus 10. [

The passenger seat monitor 300 is equipped with a touch screen for receiving a passenger's touch signal and receives an emergency signal such as a toilet request or an emergency request from the passenger through the touch screen. For this purpose, the passenger seat monitor 300 may be provided with an emergency signal icon for inputting an emergency signal through the touch of the touch screen. If necessary, individual identification information is previously assigned to each passenger seat monitor 300, and an emergency signal including identification information previously designated can be transmitted to the outside when the emergency signal icon is touched.

And the passenger seat monitor 300 may receive the driving information request signal of the passenger and transmit it to the outside. To this end, the passenger seat monitor 300 may be provided with a driving information request icon for receiving the driving information request signal through the touch of the touch screen.

In addition, the passenger seat monitor 300 may be configured to receive the satellite broadcast control signal of the passenger and transmit it to the set-top box 400. At this time, the satellite broadcast control signal may include a broadcast channel change signal, a volume signal, a home screen change signal, and the like. If desired, the present invention may further include a remote controller connected wirelessly to the passenger seat monitor 300 to remotely input a satellite broadcast control signal.

In addition, each passenger seat monitor 300 can receive an announcement message for guiding the departure, arrival, and resting place of a high-speed bus from the outside, and output the announcement message. At this time, the announcement message may be displayed as a moving picture on the screen of the passenger seat monitor 300 or may be outputted as a character.

If necessary, the passenger seat monitor 300 may be equipped with a USB memory that can be connected to a passenger-owned USB memory or an external hard disk so as to output a multimedia file stored in the USB memory or external hard disk. In addition, the passenger seat monitor 300 may be formed with a USB icon for selecting a multimedia file stored in a USB memory or an external hard disk connected to the USB terminal through a touch of a touch screen.

5 is a wiring diagram for explaining the connection relationship between the power cable 800 and the satellite broadcasting cable according to the present invention.

Referring to FIGS. 1 and 5, the satellite broadcast output system according to the present invention may further include a driver's seat monitor 600 and a common monitor 350.

The common monitor 350 is installed at the top of the high-speed bus so that a passenger can watch satellite broadcast on a large screen like the passenger seat monitor 300, and is configured to have a screen larger than the passenger seat monitor 300. The common monitor 350 is connected to the distributor 500 through the satellite broadcasting cable 700 so that the satellite monitor can receive the satellite broadcasting amplified together with the passenger seat monitor 300.

The driver's seat monitor 600 is connected to the passenger seat monitor 300 via CAN communication and installed in a driver's seat of the high-speed bus, and receives and outputs an emergency signal input through the passenger seat monitor 300. As shown in FIG. 4, a seat icon matching each passenger seat is formed on the screen of the driver's seat monitor 600. The driver's seat monitor 600 analyzes the identification information of the urgent signal, The emergency signal image is superimposed on the matched seat icon. As a result, the driver of the high-speed bus intuitively recognizes the passenger who has transmitted the emergency signal among the passengers, and can actively solve the problem.

If necessary, the driver's seat monitor 600 is provided with a touch screen for receiving a touch signal of a driver, receives a guidance broadcast output signal requesting output of guidance of departure, arrival, and resting place of a high- It is possible to transmit the announcement message to each passenger seat monitor 300 and the common monitor 350 installed on the bus. For this purpose, the driver's seat monitor 600 may be provided with an icon icon for receiving an announcement output signal such as a departure guide, a rest stop guide, an arrival guide, etc. through a touch of the touch screen as shown in FIG.

In addition, the driver's seat monitor 600 is provided with a GPS antenna that receives driving information in real time. The driver's seat monitor 600 receives driving information collected via the GPS antenna according to the driving information request signal transmitted from the passenger seat monitor 300, Lt; / RTI >

In other words, the passenger seat monitor 300 and the common monitor 350 can output the announcement broadcast message transmitted from the driver's seat monitor 600 even in the state of outputting the satellite broadcast. Here, the announcement message is either a departure announcement message, a destination arrival announcement message, or a resting place arrival announcement message.

Referring to FIGS. 1 and 2, the uplink transmission system according to the present invention includes a plurality of set-top boxes 400.

The set-top box 400 is installed in each passenger seat so that the satellite broadcasting signal amplified by the amplifier is received for each seat. The set-top box 400 is provided with a video data of a broadcast selected by a passenger so that all passengers can freely watch a desired channel, To the installed passenger seat monitor 300 to control the output of the satellite broadcast. To this end, the set-top box 400 is connected to the distributor 500 and the passenger seat monitor 300. At this time, the set-top box 400 and the passenger seat monitor 300 can be connected by a high-definition multimedia interface (HDMI) cable.

When the satellite broadcast signal is received through the distributor 500, the set-top box 400 separates only the image from the satellite broadcast signal and outputs it through the passenger seat monitor 300. The set-top box 400 separates only the voice from the satellite broadcasting signal and outputs it through an Audio Out terminal provided in the passenger seat. This is to prevent broadcast sound from flowing out through the speaker when each passenger watches different broadcast channels so as not to interfere with watching another user's broadcast.

If necessary, a set-top box 400 having a rated voltage of DC 12V is used, and a voltage converter (not shown) may be provided between the set-top box 400 and the battery 12 of the high-speed bus. This voltage converter converts the 24V power supplied from the battery 12 of the high-speed bus to 12V and supplies it to the set-top box 400. [

Referring to FIGS. 1 and 2, the uplink transmission output system according to the present invention includes a distributor 500.

The distributor 500 distributes a satellite broadcasting signal to each set-top box 400 so that a satellite broadcasting signal passed through the amplifier can be transmitted to the set-top box 400 installed in each passenger seat. Or two or more distributors 500 may be used.

The distributor 500 according to the present invention includes a first distributor 500 for distributing a satellite broadcast signal amplified through the first satellite broadcast signal amplifier 210 to a set top box 400, And a second distributor for distributing the satellite broadcasting signal amplified through the second satellite broadcasting signal amplifier 220 to the remaining set-top boxes 400 excluding the satellite broadcasting signal.

The first distributor 500 and the second distributor may connect the first distributor 500 and the second distributor to each other when the first satellite broadcast signal amplifier 210 or the second satellite broadcast signal amplifier 220 fails. Top box 400 to be able to process the emergency recovery by one or more terminals.

Specifically, the first distributor 500 connected to the first satellite broadcast signal amplifier 210 may use an 8 distributor 500. The distributor 500 may be a set-top box 500 installed in each of three rows of seats, Box 400, respectively. At this time, the 8 distributor 500 has eight terminals connected to the set-top box 400, and one terminal remains when connected to the seven set-top boxes 400.

The second distributor connected to the second satellite broadcast signal amplifier 220 may include a second distributor 522 connected to the second satellite broadcast signal amplifier 220 and two eight distributors 524 and 526 connected to the second distributor 522 ) Can be used. The left distributor 524 connected to the 2 distributor 522 is connected to the set top box 400 installed in each row of the seven seats arranged in a row and the set top box 400 connected to the common monitor 350 And the right 8 distributor 500 is connected to the set top box 400 installed in each of two rows of seats in which seven seats are arranged in a row. At this time, the left 8-splitter 524 is connected to the 8 set-top boxes 400 so that there is no spare terminal, but the right 8-splitter 526 is connected to 7 set-top boxes 400 so that one terminal remains. At this time, although a 16-way distributor can be used as the second distributor 522, it is preferable to use a 2-distributor and an 8-distributor which are commonly distributed instead of the 16-distributor.

When one spare terminal remains in the first distributor 500 connected to the first satellite broadcast signal amplifier 210 and the second distributor connected to the second satellite broadcast signal amplifier 220,

The main terminal of the first distributor 500 connected to the amplifier is connected to the spare terminal of the second distributor 500 even if there is a problem that the satellite broadcast signal is not smoothly provided to either the first distributor 500 or the second distributor Or by connecting the main terminal of the second distributor connected to the amplifier to the spare terminal of the first distributor 500, emergency recovery can be performed to provide a satellite broadcast signal to all the set-top boxes 400.

Meanwhile, the amplifier and the distributor 500 may be installed in a housing 900 installed in a cargo space of a high-speed bus as shown in FIG. The enclosure 900 is formed with a passage for communicating between the enclosure 900 and the inside of the high-speed bus so that the end of the communication cable to which the one end is connected to the distributor 500 can be disposed inside the high-speed bus.

The enclosure 900 may be formed to have a box-like structure with one side opened, but is not limited thereto.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined in the appended claims. It can be understood that it is possible.

100: Satellite reception antenna 200: Upward transmission signal amplifier
210: first satellite broadcast signal amplifier 220: second satellite broadcast signal amplifier
300: Passenger seat monitor 350: Common monitor
400: Set-top box 500: Dispenser
510: First distributor 600: Driver's seat monitor
700: Satellite broadcasting cable 800: Power cable
900: enclosure

Claims (8)

A satellite broadcast signal amplifier connected to the satellite reception antenna and amplifying a satellite broadcast signal received by the satellite reception antenna; a plurality of A plurality of set-top boxes connected to the plurality of monitors, and a distributor for distributing satellite broadcast signals amplified through the satellite broadcast signal amplifiers to each set-top box,
The satellite broadcast signal amplifier is connected to a high-speed bus battery by a power cable to receive power from a high-speed bus battery. The satellite broadcast signal amplifier stably operates at an input voltage of DC 18V to 50V so that the voltage of the high- And a first satellite broadcast signal amplifier and a second satellite broadcast signal amplifier connected to the satellite receive antenna for amplifying a satellite broadcast signal received by the satellite receive antenna,
The distributor includes a first distributor for distributing the satellite broadcasting signal amplified through the first satellite broadcasting signal amplifier to a set-top box, and a second distributor for distributing the satellite broadcasting signal amplified through the second satellite broadcasting signal amplifier, And a second distributor for distributing the set-
The first distributor is configured to have more than one terminal than the number of each connected set-top box so that the first distributor and the second distributor can be connected to each other in case of failure of the first satellite broadcast signal amplifier, Lt; / RTI &
The second distributor may be configured to have more than one terminal than the number of each connected set-top box so that the first distributor and the second distributor can be connected to each other in case of failure of the second satellite broadcast signal amplifier, Formed,
Wherein each set-top box is connected to a high-speed bus battery by a power cable so as to receive power from the high-speed bus battery, and a voltage converter is provided between the set- . delete delete delete The method according to claim 1,
The passenger-seat monitor is equipped with a touch screen and is configured to receive an emergency signal of a passenger through the touch screen and to transmit the emergency signal to the outside,
Further comprising a driver's seat monitor connected to the passenger seat monitor by CAN communication and installed in a driver's seat of the high-speed bus, and receiving and outputting the emergency signal. 6. The apparatus according to claim 5, wherein the driver's seat monitor
A GPS antenna for receiving driving information in real time is installed, and the driving information is transmitted to the passenger seat monitor at the request of the passenger seat monitor. 2. The apparatus of claim 1, wherein the amplifier and the divider
Wherein the high-speed bus is installed in an enclosure installed in a cargo compartment of a high-speed bus. delete

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